Arcata Marsh overview

The Arcata Marsh and Wildlife Sanctuary, which is an integral part of the Arcata Wastewater Treatment Plant is located in Arcata, CaliforniaW. Arcata is a town of roughly 17,300[1]people and is located on the northern part of Humboldt Bay. Arcata is the home of Humboldt State University and is in the heart of the Redwoods of Humboldt County.

The Arcata Wastewater Treatment Plant is responsible for the treatment of the sewage for the city of Arcata. The Arcata Marsh and Wildlife Sanctuary is a part of the system that cleans our waste in preparation to be released back into the water cycle. The system as a whole is the wastewater treatment plant (WWTPW). The Arcata Wastewater Treatment Plant personnel maintain 11 wastewater pump stations as well as all of the equipment, motors, and pumps associated with the plant. They also are responsible for the operation and maintenance, of the 55 acres of oxidation ponds and 154 acres of treatment and enhancement marshes.[2]

The Arcata Marsh and Wildlife Sanctuary is a constructed wetland and is part of the Arcata Wastewater Treatment Plant. This use of constructed wetlands is what separates the Arcata Wastewater Treatment Plant from other Wastewater Treatment Plants. The first treatment plant was built in 1946 and discharged unchlorinated primary treated wastewater into the bay.[3]Since then, the Arcata Wastewater Treatment Plant has undergone expansions and improvements due to governmental mandates and population growth.

Raw sewage from the city enters the plant at this point. Two Archimedes' screwW pumps lift the sewage fifteen feet from the influent lines to the headworks where processing begins. From the screw pumps the raw wastewater is passed through bar screens which eliminate large debris to keep the system running smoothly. After the bar screens the wastewater is passed through a Parshall flume for the purpose of measuring inflow. Finally the wastewater is run through grit separators before entering the clarifiers. The grit separators remove particles such as sand, pebbles, and small pieces of glass.

The clarifier is the component that is responsible for settling out any suspended material that remains after the headworks. Heavier solids settle to the bottom of the tank and are removed. These settled solids are pumped to the digesters. Solids that cannot be settled are removed by the skimmer and deposited into a dumpster. The skimmer typically removes floating solids and oils. The wastewater that passes through the clarifier is pumped into the oxidation ponds.

The digesters (Figure 4.) utilize anaerobic bacteriaW to break down the solid waste from the clarifiers. Anaerobic digestion not only breaks down the sewage sludge most effectively, it also reduces the issue of odor. The anaerobic bacteria also produce methane which is used to heat the primary digestor.[4]Two digesters are utilized at the Arcata Wastewater Treatment Plant before the sludge is pumped into the drying beds. Figure 4 shows the primary heated digester on the upper left, and the smaller secondary unheated digester on the bottom right.

Sludge processed in the digesters is pumped into one of two covered drying beds (Figure 5.) where it sits for up to six months. The drying beds are rectangular and about four feet deep at the center. One roof covers both drying beds. The floors are sloped down toward the center of each bed to allow water to collect. There is one drain at the center of the bed to assist in dewatering. The purpose of drying the sludge is to make it easier to transport as well as allowing for better composting. The sludge often looks solid due to its stagnant state, however its ratio of solid to liquid varies over the year.

When the sludge is completely dried, it is removed from the drying beds and transported to the compost area. The dried sludge is mixed with other organic matter and is left in long piles to continue its decomposition. A vertical auger mixer is used to aerate and mix the compost. Temperatures inside the pile can reach 60 Celsius (140 Fahrenheit).[5]After the composting process is complete, the composted waste is considered a Class A- Exceptional Quality biosolid[6] and is used in city parks as fertilizer.

After the clarifiers separate the sludge from the wastewater, the wastewater is pumped to the first in a series of oxidation ponds. These ponds are responsible for further settlement of solids as well as the reduction of Biological Oxygen Demand (BODW). The ponds cover about 55 acres and are about five feet deep. Having this large surface area allows for algal growth that introduces oxygen into the water. This oxygen boost allows aerobic bacteriaW at the surface to break down the organic matter in the wastewater. Toward the bottom of the ponds where there is less oxygen, anaerobic bacteria break down the settled material in a similar fashion to the digesters. The flora in the oxidation ponds helps to extract nitrogen and phosphorus.

The treatment wetlands of the Arcata Wastewater Treatment Plant are responsible for filtering out suspended solids, nutrients, organic matter, and metals. This is done using wetlands that cover approximately 7.5 acres and average 2 feet in depth.[7]These wetlands are completely covered in aquatic plants that both slow the flow of the water as well as assist in the absorption of the nutrients, metals, and organic compounds in the water.

The enhancement marshes of the Arcata Wastewater Treatment Plant are responsible for removing some of the pollutants that remain from the other secondary treatment systems. Biological processes remove some levels of nitrogen, phosphorous, and heavy metals. By using enhancement marshes, the Arcata Wastewater Treatment Plant is able to forgo the use of machines and chemicals that would normally have to be used to achieve the same result.

Two pipes carry water to and from the enhancement marshes. The pipe attached to the bottom side of the footbridge (Figure 12.) carries water to the enhancement marshes. The lower one, seen south of the bridge, carries water from the enhancement marshes to the chlorination facility. In Figure 12, the return pipe can be seen as a lighter line to the bottom left of the bridge. During a low tide the pipes can be seen under the bridge.

The disinfection process is responsible for killing off any bacteria from the treated sewage before it is discharged into Humboldt Bay.The Arcata Wastewater Treatment Plant uses chlorineW to disinfect the treated water. Precautions must be made to ensure that the chlorine infused to the water does not create any by-product chemicals that would cause harm in the ecosystem after being discharged. Any chlorine remaining in the effluent wastewater after 60 minutes is removed using sulfur dioxideW.[8]Any wastewater that is run through the treatment marshes must be disinfected before it can be discharged.

Another common process is UV disinfection which kills bacteria using ultraviolet lightW. The Arcata Wastewater Treatment Plant is in the process of conducting a study to determine if UV filtration is appropriate for their system.

After Chlorination, treated wastewater is discharged into Humboldt BayW. Discharged water must have concentrations lower than 30 mg/L for Biological Oxygen Demand (BODW) and 30 mg/L for Total Suspended Solids (TSSW) to comply with National Pollutant Discharge Elimination System (NPDESW) standards. It is important for these regulations to be met for this location as this water flows through the bay. On the journey through the bay this water will pass oyster farms and the Humboldt Bay Marina.

During a low tide the pipe that discharges the treated water can be seen emptying into the slough.

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40.85602, -124.090249|Primary anerobic digestor
40.855679, -124.089793|Sludge drying beds
40.855878, -124.090598|Archimedes screw pumps|Raw sewage enters the treatment plant at this point.
40.855768, -124.090624|Headworks|Primary filtration
40.85548, -124.090415|Clarification
40.851581, -124.08519|Arcata Salt Marsh|In 1981, these marshes were re-opened to tidal action. These marshes are characteristic of the salt water habitat around Humboldt Bay.
40.852879, -124.091424|Wastewater Aquaculture Project|Fish hatchery and ponds where salmon, trout, and other fish are raised in and return to a mixture of wastewater and sea water.
40.850891, -124.089117|Oxidation Ponds|These 49 acres of ponds, built in the late 1950's, treat Arcata's wastewater with time, water, plants, bacteria, and fungi to secondary standards.
40.853179, -124.089503|Treatment Marshes|These three, two-acre marshes were completed between 1987-1990
40.855127, -124.09519|Franklin Klopp Lake|This brackish lake is now popular for shorebird observation and sports fishing. Originally it was a leachate (drainage) basin for the landfill.
40.858568, -124.093323|George Allen Marsh|Completed in 1981, this marsh was built on an abandoned log deck.
40.860077, -124.095318|Robert Gearheart Marsh|Completed in 1981, this marsh was pasture land.
40.858113, -124.090544|Arcata Marsh Interpretive Center|600 S G St Arcata, CA 95521 - (707) 826-2359
40.858941, -124.089847|Parking
40.85589, -124.098258|Parking and Boat Ramp
40.857448, -124.097292|Dan Hauser Marsh|This is the final marsh irrigated with treated wastewater. From here the water is returned to the treatment plant.
40.856279, -124.097872|Final point of wastewater marshes, notice the high concentration of cattail and bulrush.
40.857058, -124.094589|Mount Trashmore|This grassy hill is a sealed sanitary landfill (garbage dump) that operated during the 1960's and 1970's.
40.862381, -124.090834|Butcher's Slough (lower end of Jolly Giant Creek)|This area was restored in 1985-6. The pilings once supported a plywood mill.
40.854904, -124.09056|Discharge to the bay|At low tides, the 24" bay discharge pipe is visible in the inlet west of the chlorination facility.
40.852709, -124.093151|Humboldt Bay|Produces more than half of the oysters grown in California and is home to a variety of other aquatic plants and animals.
40.854908, -124.090351|Chlorinating Facility|Chlorination and dechlorination (with sulfur dioxide) before discharge to public access and again to Humboldt Bay.
40.85395, -124.088184|Marsh Pilot Project|These ten 20' x 200' marshes were used to demonstrate the effectiveness of wetlands for treating wastewater.
40.854466, -124.088554|Composting
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